Displaying visual elements on a medical device

ABSTRACT

A medical system includes a medical device and a display for displaying a plurality of visual elements. The plurality of visual elements are associated with functions of the medical device. The medical system also includes a plurality of visual profiles for facilitating in controlling visual appearance of the plurality of visual elements displayed on the display, and a visual profile selector for selecting at least one of the plurality of visual profiles based on a state of the medical device.

CROSS REFERENCE TO RELATED APPLICATION

This application is a continuation of U.S. patent application Ser. No.15/930,270 filed May 12, 2020, entitled DISPLAYING VISUAL ELEMENTS ON AMEDICAL DEVICE, which is a continuation of U.S. patent application Ser.No. 16/197,121 filed Nov. 20, 2018, entitled DISPLAYING VISUAL ELEMENTSON A MEDICAL DEVICE, now U.S. Pat. No. 10,664,147, which is acontinuation of U.S. patent application Ser. No. 14/939,875, filed Nov.12, 2015, entitled DISPLAYING VISUAL ELEMENTS ON A MEDICAL DEVICE, nowpatent Ser. No. 10/140,004, which is a continuation of U.S. patentapplication Ser. No. 12/987,472, filed Jan. 10, 2011, entitledDISPLAYING VISUAL ELEMENTS ON A MEDICAL DEVICE, now U.S. Pat. No.9,190,010, the disclosures of which are incorporated herein byreference.

BACKGROUND

A display screen on a medical device allows for a clinician to visiblysee some parameters of the medical device. However, adjustments of thedisplay screen typically does not allow for optimal viewability. Inparticular, current medical devices do not allow for color customizationto inform the user of how the medical device operates.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 illustrates an example of a medical system, in accordance with anembodiment of the present invention.

FIG. 2 illustrates an example of visual elements, in accordance with anembodiment of the present invention.

FIG. 3 illustrates a method for displaying visual elements, inaccordance with an embodiment of the present invention.

The drawings referred to in this description should be understood as notbeing drawn to scale except if specifically noted.

DESCRIPTION OF EMBODIMENTS

Reference will now be made in detail to embodiments of the presenttechnology, examples of which are illustrated in the accompanyingdrawings. While the technology will be described in conjunction withvarious embodiment(s), it will be understood that they are not intendedto limit the present technology to these embodiments. On the contrary,the present technology is intended to cover alternatives, modificationsand equivalents, which may be included within the spirit and scope ofthe various embodiments as defined by the appended claims.

Furthermore, in the following description of embodiments, numerousspecific details are set forth in order to provide a thoroughunderstanding of the present technology. However, the present technologymay be practiced without these specific details. In other instances,well known methods, procedures, components, and circuits have not beendescribed in detail as not to unnecessarily obscure aspects of thepresent embodiments.

The description below will first describe the components of medicalsystem 100. The description will then describe the functionality of thecomponents during use of medical system 100.

In general, medical system 100 allows for detailed configuration of theappearance of a display to ensure optimal viewability and displayperception based on clinical practices and preferences. Moreover,adjustments are made based on environment. As a result, errors arereduced and care is improved.

In contrast, conventional systems have minimal configurability. Forexample, backlight and contrast level may be adjusted. However, theadjustments do not give optimal viewability for the light conditions.Moreover, the conventional systems don't allow for customization, suchas color, to inform the user of how the device is configured to operate.

FIG. 1 depicts an embodiment of medical system 100. Medical system 100includes medical device 110 and medical management system 160. In oneembodiment, medical system 100 is a medication delivery system. In suchan embodiment, medical device 110 is an infusion pump.

Medical management system 160 includes visual profile generator 170 andvisual profiles 172. Visual profile generator 170 is for generatingvisual profiles 172. Visual profiles 172 are configured for facilitatingin the control of the visual appearance of visual elements 125, whichwill be described in detail below.

Medical device 110 includes display screen 120, visual profile selector130, ambient light sensor 140, display setting controller 150, andprofile loader 155.

Display screen 120 is for displaying visual elements 125. Display screen120 can be any display screen able to display visual elements 125. Forexample, display screen 120 is a color display screen for displayingvisual elements 125.

Visual elements 125 are associated with functions of medical device 110.For example, visual elements 125 are associated with functions such, asbut not limited to, parameters, medicine, or medicine dosage. Visualelements 125 can include icons, images, textures, fonts, etc., based onworkflow, user inputs (e.g., user input fields), graphical libraries,etc.

FIG. 2 depicts an embodiment of visual elements 125 displayed on displayscreen 120. In this embodiment, visual elements 125 include title bartext color 202, title bar color 204, selected button text color 206,selected button color 208, background color 210, text color 212, buttonborder color 214, button text color 216 and button color 218. It shouldbe appreciated that the number of elements and their definitions canvary depending on the graphical user interface engine (not shown) thatis used to render visual elements 125 on display screen 120.

Visual profiles 172 facilitate in the control of the visual appearanceof visual elements 125, as described above. In other words, visualprofiles manage the visual configurations of visual elements 125 toenhance safe use of system 100. Also, the visual configuration of visualelements 125 enable power saving of medical device 110.

In general, visual profiles 172 allow for the customization of thevisual performance of display screen 120. For example, visual profiles172 allow for the visual customization (e.g., color customization) ofvisual elements 125. Visual profiles 172 depend on, among other things,criticality, classification, state of the device, state of the patient(e.g. heart rate), device association, state of the device class,clinical workflow, care area, clinical practices, environment (ambientlight), device capabilities etc.

Visual profiles 172 include, but are not limited to, a color, a pattern,a bitmap, a texture or a theme.

In various embodiments, visual profiles 172 utilize a color space. Forexample, a RGB color space, CMYC color space or an HSV color space.Colors associated with visual profiles 172 can be a combination of abase color from a color space modified by adding contrast, brightness orsaturation, by configuration or in conjunction with sensed ambientlight.

In one embodiment, visual profiles 172 include a color profile, which isa set of color configuration vectors that comprise each color region.The color regions are represented by a color configuration vector thatspecifies the perceived color of the region. The color profile, P isdefined by the set:

P={C _(R1) ,C _(R2) . . . C _(Rn)}.  (1)

The configuration parameters for a particular color region to be displayon display screen 120 is represented by a configuration vector,

C _(R) ={I _(R) ,I _(G) ,I _(B) ,B _(L)},  (2)

where I_(R), I_(G), I_(B) are the intensity of the red, green and bluecolor channels making the color, and B_(L) is the intensity of thebacklight. Although B_(L) can be configured individually per color (inequation 2), limitations on backlight devices often require the B_(L)parameter to be the same for all regions on the display screen at agiven point in time, which is the case in this embodiment.

Accordingly, the color profile is,

P={B _(L) ,C′ _(R1) ,C′ _(R2) . . . C′ _(Rn)},  (3)

where C′_(R) is the color vector C_(R) without the individualconfiguration parameter B_(L) present.

Visual profile selector 130 is for selecting visual profiles 172 basedon a state of medical system 100 and/or medical device 110. States ofmedical system 100 and/or device 110 can be, but are not limited to,care area, power state, clinician, clinician preferences, patient,ambient light, alarm settings, infusing, priming, maintenance mode,pressure limits and pump orientation. In various embodiments, the statesare dynamic.

For example, a first medical device is assigned to a male patient, and asecond medical device is assigned to a female patient As such, visualprofile selector 130 of the first medical device selects visual profiles172 (e.g., a blue color) based on the first medical device assigned tothe male patient. Likewise, visual profile selector 130 of the secondmedical device selects visual profiles 172 (e.g., a pink color) based onthe second medical device assigned to the female patient.

In one embodiment, visual profile selector 130 utilizes a rule engine toselect a visual profile. In such an embodiment, a rule may be stored inplain text or structured text, such as XML, which can be updateddynamically. For example, a rule can be, that if the current care areais “Neonatal,” then use Profile 1, or if the current care area is “ICU,then use profile 2.

As a result, visual elements 125 of the first medical device for themale patient are customized with a blue color. Similarly, visualelements 125 of the second medical device are customized with a pinkcolor.

Moreover, visual profiles 172 based on the second medical deviceassigned to the female patient could also include a texture, such asparallel stripes. Accordingly, visual elements 125 of the second medicaldevice are customized with a pink color with parallel stripes.

Additionally, visual profile selector 130 selects a visual profile ofthe visual profiles 172 based on the system state and applies the visualprofile to an active profile. In one embodiment, visual profiles 172 areprocessed at run time to adjust to changes in ambient light.

In one embodiment, the aggregate state of medical device 110 is the sumof the state of medical device 110 and clinical configurations. Itshould be appreciated that an active profile can contain visualconfigurations from multiple visual profiles. In various embodiments, avisual profile includes visual configurations from multiple visualprofiles. Also, sub-system states are prioritized to achieve the safestactive profile based on inputs to medical device 110.

In various embodiments, visual profiles 172 includes rules. For example,if a patient's pulse rate is greater than X and care area is C, thenvisual profile 1 is selected. However, if the care area B, then visualprofile 2 is selected. Accordingly, profile selector 130 utilizes rulesbased on the states, mentioned above, to select the appropriate visualprofile.

Visual profiles 172 can be set by a pharmacy, hospital practices,biomed, clinician, and the like. In one embodiment, the pharmacy andhospital practices are a part of a drug library.

In one embodiment, visual profiles 172 are stored on memory (not shown)in medical management system 160. In another embodiment, visual profiles172 are stored in memory (not shown) on medical device 110. For example,visual profiles 172 are a part of a firmware image or transferred frommedical management system 160 through a data port and stored into memoryof medical device 110. In another embodiment, visual profiles 172 may beaccessed from a portable device (e.g., PDA, tablet, etc).

In various embodiments, visual profiles 172 are activated by applyingthe parameters in the profiles to different subsystems using a memorybus. The parameters are sent from memory to a graphical user interfaceengine which executes within a microprocessor. The interface engineapplies the visual information (e.g., colors) to different visualelements 125 that are viewed on display 120 and then sends the updatedscreens to display 120.

Profile loader 150 is for managing a set of currently available visualprofiles 172. For example, profile loader 150 coordinates uploading ofnew profiles from medical management system 160. Moreover, profileloader 150 allows modifications to visual profiles 172 made by a userlocally on medical device 110.

Display setting controller 150 is for controlling the settings ofdisplay screen 120. For example, display setting controller 150 controlsthe display settings (e.g., backlight, contrast, etc.) in response toambient light detected by ambient light sensor 140.

FIG. 3 depicts an embodiment of a method 300 for displaying visualelements. In various embodiments, method 300 is carried out byprocessors and electrical components under the control of computerreadable and computer executable instructions. The computer readable andcomputer executable instructions reside, for example, in a data storagemedium such as computer usable volatile and non-volatile memory.However, the computer readable and computer executable instructions mayreside in any type of computer readable storage medium. In someembodiments, method 300 is performed at least by position medical system100, as described in FIGS. 1 and 2.

At 310 of method 300, a plurality of visual profiles are generated. Forexample, visual profiles 172 are generated by visual profile generator170.

At 320, the plurality of visual profiles are selected based on a stateof a medical device. For example, a visual profile including a bitmap ofanimal is selected based on patient associated with medical device 110.Moreover, a visual profile including a red color is selected for whenmedical device 110 is infusing medication to the patient.

At 330, a plurality of visual elements are displayed on a display of themedical device, wherein the displayed plurality of visual elementsconform to the at least one selected plurality of visual profiles, andwherein the plurality of visual elements are associated with functionsof the medical device.

Continuing the example from above, displayed background color 210 is abitmap of an animal because the background conforms to the visualprofile that includes the bitmap of the animal. Similarly, text color212 is red because the text color of the “dose” conforms to the visualprofile that includes a red color for infusing medication to thepatient.

In one embodiment, at 340, ambient light is measured in proximity to themedical device. For example, ambient light is measured by ambient lightsensor 140.

In another embodiment, at 350, display settings of the display screenare controlled. For example, contrast and/or backlight is adjusted bydisplay setting controller 150 based on the ambient light measured byambient light sensor 140.

Various embodiments of the present invention are thus described. Whilethe present invention has been described in particular embodiments, itshould be appreciated that the present invention should not be construedas limited by such embodiments, but rather construed according to thefollowing claims.

1-21. (canceled)
 22. A medical device management system comprising: atleast one processor configured to at least: receive presentationinformation for a visual element to be displayed on a display associatedwith a medical device; receive medical device state information relatingto at least one of an operating parameter associated with a treatmentprovided by the medical device and a care area associated with themedical device; and select a visual profile based at least in part onthe presentation information and the medical device state information,the visual profile comprising at least one visual configuration of thevisual element from a second visual profile.
 23. The medical devicemanagement system of claim 22, wherein the at least one processor isconfigured to select the visual profile from a plurality of visualprofiles pursuant to one or more rules based on the medical device stateinformation.
 24. The medical device management system of claim 23,wherein the at least one processor selects a first visual profile whenthe medical device state information indicates a first state of themedical device, and selects a third visual profile when the medicaldevice state information indicates a second state of the medical device.25. The medical device management system of claim 23, wherein the atleast one processor is further configured to transmit the visual profileto the medical device to control the presentation information for thevisual element to be displayed on the display associated with themedical device.
 26. The medical device management system of claim 23,wherein the operating parameter relates to at least one of a powerstate, a clinician, a patient, and an amount of measured ambient light.27. The medical device management system of claim 23, wherein the visualelement relates to at least one of text, a text color, a title bar,title bar text, a title bar background, a button border color, a buttontext color, a button color, a selected button text color, a selectedbutton color, a work flow, one or more input fields, a graphicallibrary, one or more textures, one or more background images, and one ormore grayscale patterns.
 28. The medical device management system ofclaim 23, wherein the plurality of visual profiles comprise comprises atleast one color configuration vector.
 29. The medical device managementsystem of claim 23, wherein the one or more rules are dynamicallyupdated.
 30. The medical device management system of claim 22, whereinthe visual element is associated with a function of the medical device;and wherein the visual profile is selected from a plurality of visualprofiles that facilitate customized control of the at least one visualconfiguration of the visual element.
 31. The medical device managementsystem of claim 22, wherein the selected visual profile comprises atleast two visual configurations from different visual profiles.
 32. Themedical device management system of claim 22, wherein the second visualprofile relates to at least one of a second operating parameterassociated with the treatment provided by the medical device and asecond care area associated with the medical device.
 33. A method,comprising: receiving presentation information for a visual element tobe displayed on a display associated with a medical device; receivingmedical device state information relating to at least one of anoperating parameter associated with a treatment provided by the medicaldevice and a care area associated with the medical device; and selectinga visual profile based at least in part on the presentation informationand the medical device state information, the visual profile comprisingat least one visual configuration of the visual element from a secondvisual profile.
 34. The method of claim 33, further comprising:selecting the visual profile from a plurality of visual profilespursuant to one or more rules based on the medical device stateinformation.
 35. The method of claim 34, further comprising: selecting afirst visual profile when the medical device state information indicatesa first state of the medical device, and selecting a third visualprofile when the medical device state information indicates a secondstate of the medical device.
 36. The method of claim 34, furthercomprising: transmitting the visual profile to the medical device tocontrol the presentation information for the visual element to bedisplayed on the display associated with the medical device.
 37. Themethod of claim 34, wherein the operating parameter relates to at leastone of a power state, a clinician, a patient, and an amount of measuredambient light.
 38. The method of claim 34, wherein the visual elementrelates to at least one of text, a text color, a title bar, title bartext, a title bar background, a button border color, a button textcolor, a button color, a selected button text color, a selected buttoncolor, a work flow, one or more input fields, a graphical library, oneor more textures, one or more background images, and one or moregrayscale patterns.
 39. The method of claim 34, wherein the plurality ofvisual profiles comprise comprises at least one color configurationvector.
 40. The method of claim 34, wherein the one or more rules aredynamically updated.
 41. A non-transitory computer-readable mediumcontaining instructions to configure at least one processor to performoperations comprising: receiving presentation information for a visualelement to be displayed on a display associated with a medical device;receiving medical device state information relating to at least one ofan operating parameter associated with a treatment provided by themedical device and a care area associated with the medical device; andselecting a visual profile based at least in part on the presentationinformation and the medical device state information, the visual profilecomprising at least one visual configuration of the visual element froma second visual profile.